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Amorphous ruthenium nanoparticles for enhanced electrochemical water splitting
Nanotechnology, 2015This paper demonstrates an optimized fabrication of amorphous Ru nanoparticles through annealing at various temperatures ranging from 150 to 700 °C, which are used as water oxidation catalyst for effective electrochemical water splitting under a low overpotential of less than 300 mV.
Dinachali, Saman Safari +8 more
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(Invited) Decoupling Strategies in Electrochemical Water Splitting
ECS Meeting Abstracts, 2023The storage of renewably-generated energy as hydrogen via the electrolysis of water is a fundamental cornerstone of a sustainable hydrogen economy. Conventional electrolysers usually require stable power inputs in order to operate effectively and safely and so may be unsuited to harnessing renewable power, which is often intermittent and diffuse ...
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Electrochemically reactive colloidal nanobubbles by water splitting
Journal of Colloid and Interface ScienceThe existing literature reports have conflicting views on reactive oxygen species (ROS) generation by bulk nanobubbles. Consequently, we propose the hypothesis that (i) ROS may be generated during the process of nanobubble generation through water splitting, and (ii) bulk nanobubbles possess electrochemical reactivity, which could potentially lead to ...
Gaurav Yadav +2 more
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Metallic Nanoclusters for Electrochemical Water Splitting
ChemCatChemAbstractElectrocatalytic water splitting is regarded as one of the most promising strategies for producing clean and sustainable energy sources (H2 and O2) in cathodic hydrogen evolution reaction (HER) and anodic oxygen evolution reaction (OER), respectively.
Xiaodong Shao +3 more
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Electrochemical water splitting of Ag-WO3 nanostructures
AIP Conference Proceedings, 2020Hydrothermal synthesis technique was employed to synthesize bare and Ag doped WO3 electrocatalysts for electrochemical water splitting process for sustainable energy production. The structural confirmation of the bare and Ag (5% and 10%) doped WO3 samples were done by X-Ray diffraction (XRD) analysis. Monoclinic crystal structure was confirmed.
S. P. Keerthana +6 more
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Single-Atom Catalysts for Electrochemical Water Splitting
ACS Energy Letters, 2018High-efficiency electrocatalysts with superior activity and stability are crucial to practical applications in water splitting, including the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER). Downsizing the conventional nanoparticle catalyst to single atoms and constructing single-atom catalysts (SACs) is a rapidly emerging ...
Chengzhou Zhu +4 more
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Metallic nanostructures with low dimensionality for electrochemical water splitting
Chemical Society Reviews, 2020The recent advances in 1D and 2D metallic nanostructures for electrochemical water splitting (HER and OER) are highlighted.
Leigang Li +3 more
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Monolithic electrochemical cells for overall water splitting
Journal of Power Sources, 2018Abstract Electrochemical cells are widely used for hydrogen production by electrochemical water splitting (EWS). Even though much progress in the electrochemical cells has been made, the mainstream device architecture is limited to batch-type configuration which leads to increased volume and extra need of products separation.
Yunchao Xie +6 more
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Surface Engineering of Nanomaterials for Photo‐Electrochemical Water Splitting
Small, 2018AbstractPhoto‐electrochemical water splitting represents a green and environmentally friendly method for producing solar hydrogen. Semiconductor nanomaterials with a highly accessible surface area, reduced charge migration distance, and tunable optical and electronic property are regarded as promising electrode materials to carry out this solar‐to ...
Bin, Yao +4 more
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Advancing Catalyst Performance in Electrochemical Water Splitting
ECS Meeting AbstractsThe transition to renewable energy, vital for a sustainable future, frequently encounters challenges such as low energy density and intermittency. A promising solution lies in converting renewable energy into chemical bonds, notably hydrogen, through electrochemical water splitting.
Matej Zlatar, Serhiy Cherevko
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